Your search keyword '"Zhu, Dajiang"' showing total 727 results

1. Using Structural Similarity and Kolmogorov-Arnold Networks for Anatomical Embedding of 3-hinge Gyrus

Author

Chen, Minheng, Cao, Chao, Chen, Tong, Zhuang, Yan, Zhang, Jing, Lyu, Yanjun, Yu, Xiaowei, Zhang, Lu, Liu, Tianming, and Zhu, Dajiang

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

The 3-hinge gyrus (3HG) is a newly defined folding pattern, which is the conjunction of gyri coming from three directions in cortical folding. Many studies demonstrated that 3HGs can be reliable nodes when constructing brain networks or connectome since they simultaneously possess commonality and individuality across different individual brains and populations. However, 3HGs are identified and validated within individual spaces, making it difficult to directly serve as the brain network nodes due to the absence of cross-subject correspondence. The 3HG correspondences represent the intrinsic regulation of brain organizational architecture, traditional image-based registration methods tend to fail because individual anatomical properties need to be fully respected. To address this challenge, we propose a novel self-supervised framework for anatomical feature embedding of the 3HGs to build the correspondences among different brains. The core component of this framework is to construct a structural similarity-enhanced multi-hop feature encoding strategy based on the recently developed Kolmogorov-Arnold network (KAN) for anatomical feature embedding. Extensive experiments suggest that our approach can effectively establish robust cross-subject correspondences when no one-to-one mapping exists.

Published

2024

2. Large Language Models for Manufacturing

Author

Li, Yiwei, Zhao, Huaqin, Jiang, Hanqi, Pan, Yi, Liu, Zhengliang, Wu, Zihao, Shu, Peng, Tian, Jie, Yang, Tianze, Xu, Shaochen, Lyu, Yanjun, Blenk, Parker, Pence, Jacob, Rupram, Jason, Banu, Eliza, Liu, Ninghao, Wang, Linbing, Song, Wenzhan, Zhai, Xiaoming, Song, Kenan, Zhu, Dajiang, Li, Beiwen, Wang, Xianqiao, and Liu, Tianming

Subjects

Computer Science - Artificial Intelligence, Computer Science - Computation and Language

Abstract

The rapid advances in Large Language Models (LLMs) have the potential to transform manufacturing industry, offering new opportunities to optimize processes, improve efficiency, and drive innovation. This paper provides a comprehensive exploration of the integration of LLMs into the manufacturing domain, focusing on their potential to automate and enhance various aspects of manufacturing, from product design and development to quality control, supply chain optimization, and talent management. Through extensive evaluations across multiple manufacturing tasks, we demonstrate the remarkable capabilities of state-of-the-art LLMs, such as GPT-4V, in understanding and executing complex instructions, extracting valuable insights from vast amounts of data, and facilitating knowledge sharing. We also delve into the transformative potential of LLMs in reshaping manufacturing education, automating coding processes, enhancing robot control systems, and enabling the creation of immersive, data-rich virtual environments through the industrial metaverse. By highlighting the practical applications and emerging use cases of LLMs in manufacturing, this paper aims to provide a valuable resource for professionals, researchers, and decision-makers seeking to harness the power of these technologies to address real-world challenges, drive operational excellence, and unlock sustainable growth in an increasingly competitive landscape.

Published

2024

3. EG-SpikeFormer: Eye-Gaze Guided Transformer on Spiking Neural Networks for Medical Image Analysis

Author

Pan, Yi, Jiang, Hanqi, Chen, Junhao, Li, Yiwei, Zhao, Huaqin, Zhou, Yifan, Shu, Peng, Wu, Zihao, Liu, Zhengliang, Zhu, Dajiang, Li, Xiang, Abate, Yohannes, and Liu, Tianming

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing

Abstract

Neuromorphic computing has emerged as a promising energy-efficient alternative to traditional artificial intelligence, predominantly utilizing spiking neural networks (SNNs) implemented on neuromorphic hardware. Significant advancements have been made in SNN-based convolutional neural networks (CNNs) and Transformer architectures. However, neuromorphic computing for the medical imaging domain remains underexplored. In this study, we introduce EG-SpikeFormer, an SNN architecture tailored for clinical tasks that incorporates eye-gaze data to guide the model's attention to the diagnostically relevant regions in medical images. Our developed approach effectively addresses shortcut learning issues commonly observed in conventional models, especially in scenarios with limited clinical data and high demands for model reliability, generalizability, and transparency. Our EG-SpikeFormer not only demonstrates superior energy efficiency and performance in medical image prediction tasks but also enhances clinical relevance through multi-modal information alignment. By incorporating eye-gaze data, the model improves interpretability and generalization, opening new directions for applying neuromorphic computing in healthcare.

Published

2024

4. Evaluation of OpenAI o1: Opportunities and Challenges of AGI

Author

Zhong, Tianyang, Liu, Zhengliang, Pan, Yi, Zhang, Yutong, Zhou, Yifan, Liang, Shizhe, Wu, Zihao, Lyu, Yanjun, Shu, Peng, Yu, Xiaowei, Cao, Chao, Jiang, Hanqi, Chen, Hanxu, Li, Yiwei, Chen, Junhao, Hu, Huawen, Liu, Yihen, Zhao, Huaqin, Xu, Shaochen, Dai, Haixing, Zhao, Lin, Zhang, Ruidong, Zhao, Wei, Yang, Zhenyuan, Chen, Jingyuan, Wang, Peilong, Ruan, Wei, Wang, Hui, Zhao, Huan, Zhang, Jing, Ren, Yiming, Qin, Shihuan, Chen, Tong, Li, Jiaxi, Zidan, Arif Hassan, Jahin, Afrar, Chen, Minheng, Xia, Sichen, Holmes, Jason, Zhuang, Yan, Wang, Jiaqi, Xu, Bochen, Xia, Weiran, Yu, Jichao, Tang, Kaibo, Yang, Yaxuan, Sun, Bolun, Yang, Tao, Lu, Guoyu, Wang, Xianqiao, Chai, Lilong, Li, He, Lu, Jin, Sun, Lichao, Zhang, Xin, Ge, Bao, Hu, Xintao, Zhang, Lian, Zhou, Hua, Zhang, Lu, Zhang, Shu, Liu, Ninghao, Jiang, Bei, Kong, Linglong, Xiang, Zhen, Ren, Yudan, Liu, Jun, Jiang, Xi, Bao, Yu, Zhang, Wei, Li, Xiang, Li, Gang, Liu, Wei, Shen, Dinggang, Sikora, Andrea, Zhai, Xiaoming, Zhu, Dajiang, and Liu, Tianming

Subjects

Computer Science - Computation and Language

Abstract

This comprehensive study evaluates the performance of OpenAI's o1-preview large language model across a diverse array of complex reasoning tasks, spanning multiple domains, including computer science, mathematics, natural sciences, medicine, linguistics, and social sciences. Through rigorous testing, o1-preview demonstrated remarkable capabilities, often achieving human-level or superior performance in areas ranging from coding challenges to scientific reasoning and from language processing to creative problem-solving. Key findings include: -83.3% success rate in solving complex competitive programming problems, surpassing many human experts. -Superior ability in generating coherent and accurate radiology reports, outperforming other evaluated models. -100% accuracy in high school-level mathematical reasoning tasks, providing detailed step-by-step solutions. -Advanced natural language inference capabilities across general and specialized domains like medicine. -Impressive performance in chip design tasks, outperforming specialized models in areas such as EDA script generation and bug analysis. -Remarkable proficiency in anthropology and geology, demonstrating deep understanding and reasoning in these specialized fields. -Strong capabilities in quantitative investing. O1 has comprehensive financial knowledge and statistical modeling skills. -Effective performance in social media analysis, including sentiment analysis and emotion recognition. The model excelled particularly in tasks requiring intricate reasoning and knowledge integration across various fields. While some limitations were observed, including occasional errors on simpler problems and challenges with certain highly specialized concepts, the overall results indicate significant progress towards artificial general intelligence.

Published

2024

5. GP-GPT: Large Language Model for Gene-Phenotype Mapping

Author

Lyu, Yanjun, Wu, Zihao, Zhang, Lu, Zhang, Jing, Li, Yiwei, Ruan, Wei, Liu, Zhengliang, Yu, Xiaowei, Cao, Chao, Chen, Tong, Chen, Minheng, Zhuang, Yan, Li, Xiang, Liu, Rongjie, Huang, Chao, Li, Wentao, Liu, Tianming, and Zhu, Dajiang

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence

Abstract

Pre-trained large language models(LLMs) have attracted increasing attention in biomedical domains due to their success in natural language processing. However, the complex traits and heterogeneity of multi-sources genomics data pose significant challenges when adapting these models to the bioinformatics and biomedical field. To address these challenges, we present GP-GPT, the first specialized large language model for genetic-phenotype knowledge representation and genomics relation analysis. Our model is fine-tuned in two stages on a comprehensive corpus composed of over 3,000,000 terms in genomics, proteomics, and medical genetics, derived from multiple large-scale validated datasets and scientific publications. GP-GPT demonstrates proficiency in accurately retrieving medical genetics information and performing common genomics analysis tasks, such as genomics information retrieval and relationship determination. Comparative experiments across domain-specific tasks reveal that GP-GPT outperforms state-of-the-art LLMs, including Llama2, Llama3 and GPT-4. These results highlight GP-GPT's potential to enhance genetic disease relation research and facilitate accurate and efficient analysis in the fields of genomics and medical genetics. Our investigation demonstrated the subtle changes of bio-factor entities' representations in the GP-GPT, which suggested the opportunities for the application of LLMs to advancing gene-phenotype research.

Published

2024

6. Role of Data-driven Regional Growth Model in Shaping Brain Folding Patterns

Author

Hou, Jixin, Wu, Zhengwang, Chen, Xianyan, Wang, Li, Zhu, Dajiang, Liu, Tianming, Li, Gang, and Wang, Xianqiao

Subjects

Quantitative Biology - Neurons and Cognition, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Symbolic Computation, Quantitative Biology - Tissues and Organs

Abstract

The surface morphology of the developing mammalian brain is crucial for understanding brain function and dysfunction. Computational modeling offers valuable insights into the underlying mechanisms for early brain folding. Recent findings indicate significant regional variations in brain tissue growth, while the role of these variations in cortical development remains unclear. In this study, we unprecedently explored how regional cortical growth affects brain folding patterns using computational simulation. We first developed growth models for typical cortical regions using machine learning (ML)-assisted symbolic regression, based on longitudinal real surface expansion and cortical thickness data from prenatal and infant brains derived from over 1,000 MRI scans of 735 pediatric subjects with ages ranging from 29 post-menstrual weeks to 24 months. These models were subsequently integrated into computational software to simulate cortical development with anatomically realistic geometric models. We comprehensively quantified the resulting folding patterns using multiple metrics such as mean curvature, sulcal depth, and gyrification index. Our results demonstrate that regional growth models generate complex brain folding patterns that more closely match actual brains structures, both quantitatively and qualitatively, compared to conventional uniform growth models. Growth magnitude plays a dominant role in shaping folding patterns, while growth trajectory has a minor influence. Moreover, multi-region models better capture the intricacies of brain folding than single-region models. Our results underscore the necessity and importance of incorporating regional growth heterogeneity into brain folding simulations, which could enhance early diagnosis and treatment of cortical malformations and neurodevelopmental disorders such as cerebral palsy and autism., Comment: 43 pages, 16 figures

Published

2024

7. Brain Dialogue Interface (BDI): A User-Friendly fMRI Model for Interactive Brain Decoding

Author

Huang, Heng, Zhao, Lin, Wu, Zihao, Yu, Xiaowei, Zhang, Jing, Hu, Xintao, Zhu, Dajiang, and Liu, Tianming

Subjects

Quantitative Biology - Neurons and Cognition, Computer Science - Human-Computer Interaction

Abstract

Brain decoding techniques are essential for understanding the neurocognitive system. Although numerous methods have been introduced in this field, accurately aligning complex external stimuli with brain activities remains a formidable challenge. To alleviate alignment difficulties, many studies have simplified their models by employing single-task paradigms and establishing direct links between brain/world through classification strategies. Despite improvements in decoding accuracy, this strategy frequently encounters issues with generality when adapting these models to various task paradigms. To address this issue, this study introduces a user-friendly decoding model that enables dynamic communication with the brain, as opposed to the static decoding approaches utilized by traditional studies. The model functions as a brain simulator, allowing for interactive engagement with the brain and enabling the decoding of a subject's experiences through dialogue-like queries. Uniquely, our model is trained in a completely unsupervised and task-free manner. Our experiments demonstrate the feasibility and versatility of our proposed method. Notably, our model demonstrates exceptional capabilities in signal compression, successfully representing the entire brain signal of approximately 185,751 voxels with just 32 signals. Furthermore, we show how our model can integrate seamlessly with multimodal models, thus enhancing the potential for controlling brain decoding through textual or image inputs.

Published

2024

8. Eye-gaze Guided Multi-modal Alignment for Medical Representation Learning

Author

Ma, Chong, Jiang, Hanqi, Chen, Wenting, Li, Yiwei, Wu, Zihao, Yu, Xiaowei, Liu, Zhengliang, Guo, Lei, Zhu, Dajiang, Zhang, Tuo, Shen, Dinggang, Liu, Tianming, and Li, Xiang

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language, 68T07, I.2.0, I.4.0, I.5.4, I.7.0

Abstract

In the medical multi-modal frameworks, the alignment of cross-modality features presents a significant challenge. However, existing works have learned features that are implicitly aligned from the data, without considering the explicit relationships in the medical context. This data-reliance may lead to low generalization of the learned alignment relationships. In this work, we propose the Eye-gaze Guided Multi-modal Alignment (EGMA) framework to harness eye-gaze data for better alignment of medical visual and textual features. We explore the natural auxiliary role of radiologists' eye-gaze data in aligning medical images and text, and introduce a novel approach by using eye-gaze data, collected synchronously by radiologists during diagnostic evaluations. We conduct downstream tasks of image classification and image-text retrieval on four medical datasets, where EGMA achieved state-of-the-art performance and stronger generalization across different datasets. Additionally, we explore the impact of varying amounts of eye-gaze data on model performance, highlighting the feasibility and utility of integrating this auxiliary data into multi-modal alignment framework., Comment: 12 pages, 6 figures

Published

2024

9. InterLUDE: Interactions between Labeled and Unlabeled Data to Enhance Semi-Supervised Learning

Author

Huang, Zhe, Yu, Xiaowei, Zhu, Dajiang, and Hughes, Michael C.

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning

Abstract

Semi-supervised learning (SSL) seeks to enhance task performance by training on both labeled and unlabeled data. Mainstream SSL image classification methods mostly optimize a loss that additively combines a supervised classification objective with a regularization term derived solely from unlabeled data. This formulation neglects the potential for interaction between labeled and unlabeled images. In this paper, we introduce InterLUDE, a new approach to enhance SSL made of two parts that each benefit from labeled-unlabeled interaction. The first part, embedding fusion, interpolates between labeled and unlabeled embeddings to improve representation learning. The second part is a new loss, grounded in the principle of consistency regularization, that aims to minimize discrepancies in the model's predictions between labeled versus unlabeled inputs. Experiments on standard closed-set SSL benchmarks and a medical SSL task with an uncurated unlabeled set show clear benefits to our approach. On the STL-10 dataset with only 40 labels, InterLUDE achieves 3.2% error rate, while the best previous method reports 14.9%., Comment: Semi-supervised Learning; Vision Transformers

Published

2024

10. Holistic Evaluation of GPT-4V for Biomedical Imaging

Author

Liu, Zhengliang, Jiang, Hanqi, Zhong, Tianyang, Wu, Zihao, Ma, Chong, Li, Yiwei, Yu, Xiaowei, Zhang, Yutong, Pan, Yi, Shu, Peng, Lyu, Yanjun, Zhang, Lu, Yao, Junjie, Dong, Peixin, Cao, Chao, Xiao, Zhenxiang, Wang, Jiaqi, Zhao, Huan, Xu, Shaochen, Wei, Yaonai, Chen, Jingyuan, Dai, Haixing, Wang, Peilong, He, Hao, Wang, Zewei, Wang, Xinyu, Zhang, Xu, Zhao, Lin, Liu, Yiheng, Zhang, Kai, Yan, Liheng, Sun, Lichao, Liu, Jun, Qiang, Ning, Ge, Bao, Cai, Xiaoyan, Zhao, Shijie, Hu, Xintao, Yuan, Yixuan, Li, Gang, Zhang, Shu, Zhang, Xin, Jiang, Xi, Zhang, Tuo, Shen, Dinggang, Li, Quanzheng, Liu, Wei, Li, Xiang, Zhu, Dajiang, and Liu, Tianming

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence

Abstract

In this paper, we present a large-scale evaluation probing GPT-4V's capabilities and limitations for biomedical image analysis. GPT-4V represents a breakthrough in artificial general intelligence (AGI) for computer vision, with applications in the biomedical domain. We assess GPT-4V's performance across 16 medical imaging categories, including radiology, oncology, ophthalmology, pathology, and more. Tasks include modality recognition, anatomy localization, disease diagnosis, report generation, and lesion detection. The extensive experiments provide insights into GPT-4V's strengths and weaknesses. Results show GPT-4V's proficiency in modality and anatomy recognition but difficulty with disease diagnosis and localization. GPT-4V excels at diagnostic report generation, indicating strong image captioning skills. While promising for biomedical imaging AI, GPT-4V requires further enhancement and validation before clinical deployment. We emphasize responsible development and testing for trustworthy integration of biomedical AGI. This rigorous evaluation of GPT-4V on diverse medical images advances understanding of multimodal large language models (LLMs) and guides future work toward impactful healthcare applications.

Published

2023

11. ChatRadio-Valuer: A Chat Large Language Model for Generalizable Radiology Report Generation Based on Multi-institution and Multi-system Data

Author

Zhong, Tianyang, Zhao, Wei, Zhang, Yutong, Pan, Yi, Dong, Peixin, Jiang, Zuowei, Kui, Xiaoyan, Shang, Youlan, Yang, Li, Wei, Yaonai, Yang, Longtao, Chen, Hao, Zhao, Huan, Liu, Yuxiao, Zhu, Ning, Li, Yiwei, Wang, Yisong, Yao, Jiaqi, Wang, Jiaqi, Zeng, Ying, He, Lei, Zheng, Chao, Zhang, Zhixue, Li, Ming, Liu, Zhengliang, Dai, Haixing, Wu, Zihao, Zhang, Lu, Zhang, Shu, Cai, Xiaoyan, Hu, Xintao, Zhao, Shijie, Jiang, Xi, Zhang, Xin, Li, Xiang, Zhu, Dajiang, Guo, Lei, Shen, Dinggang, Han, Junwei, Liu, Tianming, Liu, Jun, and Zhang, Tuo

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence

Abstract

Radiology report generation, as a key step in medical image analysis, is critical to the quantitative analysis of clinically informed decision-making levels. However, complex and diverse radiology reports with cross-source heterogeneity pose a huge generalizability challenge to the current methods under massive data volume, mainly because the style and normativity of radiology reports are obviously distinctive among institutions, body regions inspected and radiologists. Recently, the advent of large language models (LLM) offers great potential for recognizing signs of health conditions. To resolve the above problem, we collaborate with the Second Xiangya Hospital in China and propose ChatRadio-Valuer based on the LLM, a tailored model for automatic radiology report generation that learns generalizable representations and provides a basis pattern for model adaptation in sophisticated analysts' cases. Specifically, ChatRadio-Valuer is trained based on the radiology reports from a single institution by means of supervised fine-tuning, and then adapted to disease diagnosis tasks for human multi-system evaluation (i.e., chest, abdomen, muscle-skeleton, head, and maxillofacial $\&$ neck) from six different institutions in clinical-level events. The clinical dataset utilized in this study encompasses a remarkable total of \textbf{332,673} observations. From the comprehensive results on engineering indicators, clinical efficacy and deployment cost metrics, it can be shown that ChatRadio-Valuer consistently outperforms state-of-the-art models, especially ChatGPT (GPT-3.5-Turbo) and GPT-4 et al., in terms of the diseases diagnosis from radiology reports. ChatRadio-Valuer provides an effective avenue to boost model generalization performance and alleviate the annotation workload of experts to enable the promotion of clinical AI applications in radiology reports.

Published

2023

12. NoisyNN: Exploring the Influence of Information Entropy Change in Learning Systems

Author

Yu, Xiaowei, Huang, Zhe, Xue, Yao, Zhang, Lu, Wang, Li, Liu, Tianming, and Zhu, Dajiang

Subjects

Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition

Abstract

We explore the impact of entropy change in deep learning systems via noise injection at different levels, i.e., the latent space and input image. The series of models that employ our methodology are collectively known as Noisy Neural Networks (NoisyNN), with examples such as NoisyViT and NoisyCNN. Noise is conventionally viewed as a harmful perturbation in various deep learning architectures, such as convolutional neural networks (CNNs) and vision transformers (ViTs), as well as different learning tasks like image classification and transfer learning. However, this work shows noise can be an effective way to change the entropy of the learning system. We demonstrate that specific noise can boost the performance of various deep architectures under certain conditions. We theoretically prove the enhancement gained from positive noise by reducing the task complexity defined by information entropy and experimentally show the significant performance gain in large image datasets, such as the ImageNet. Herein, we use the information entropy to define the complexity of the task. We categorize the noise into two types, positive noise (PN) and harmful noise (HN), based on whether the noise can help reduce the complexity of the task. Extensive experiments of CNNs and ViTs have shown performance improvements by proactively injecting positive noise, where we achieved an unprecedented top 1 accuracy of over 95$\%$ on ImageNet. Both theoretical analysis and empirical evidence have confirmed that the presence of positive noise, can benefit the learning process, while the traditionally perceived harmful noise indeed impairs deep learning models. The different roles of noise offer new explanations for deep models on specific tasks and provide a new paradigm for improving model performance. Moreover, it reminds us that we can influence the performance of learning systems via information entropy change., Comment: Information Entropy, NoisyNN, ViT, CNN

Published

2023

13. PolicyGPT: Automated Analysis of Privacy Policies with Large Language Models

Author

Tang, Chenhao, Liu, Zhengliang, Ma, Chong, Wu, Zihao, Li, Yiwei, Liu, Wei, Zhu, Dajiang, Li, Quanzheng, Li, Xiang, Liu, Tianming, and Fan, Lei

Subjects

Computer Science - Computation and Language

Abstract

Privacy policies serve as the primary conduit through which online service providers inform users about their data collection and usage procedures. However, in a bid to be comprehensive and mitigate legal risks, these policy documents are often quite verbose. In practical use, users tend to click the Agree button directly rather than reading them carefully. This practice exposes users to risks of privacy leakage and legal issues. Recently, the advent of Large Language Models (LLM) such as ChatGPT and GPT-4 has opened new possibilities for text analysis, especially for lengthy documents like privacy policies. In this study, we investigate a privacy policy text analysis framework PolicyGPT based on the LLM. This framework was tested using two datasets. The first dataset comprises of privacy policies from 115 websites, which were meticulously annotated by legal experts, categorizing each segment into one of 10 classes. The second dataset consists of privacy policies from 304 popular mobile applications, with each sentence manually annotated and classified into one of another 10 categories. Under zero-shot learning conditions, PolicyGPT demonstrated robust performance. For the first dataset, it achieved an accuracy rate of 97%, while for the second dataset, it attained an 87% accuracy rate, surpassing that of the baseline machine learning and neural network models.

Published

2023

14. RadOnc-GPT: A Large Language Model for Radiation Oncology

Author

Liu, Zhengliang, Wang, Peilong, Li, Yiwei, Holmes, Jason, Shu, Peng, Zhang, Lian, Liu, Chenbin, Liu, Ninghao, Zhu, Dajiang, Li, Xiang, Li, Quanzheng, Patel, Samir H., Sio, Terence T., Liu, Tianming, and Liu, Wei

Subjects

Physics - Medical Physics, Computer Science - Artificial Intelligence

Abstract

This paper presents RadOnc-GPT, a large language model specialized for radiation oncology through advanced tuning methods. RadOnc-GPT was finetuned on a large dataset of radiation oncology patient records from the Mayo Clinic in Arizona. The model employs instruction tuning on three key tasks - generating radiotherapy treatment regimens, determining optimal radiation modalities, and providing diagnostic descriptions/ICD codes based on patient diagnostic details. Evaluations conducted by comparing RadOnc-GPT outputs to general large language model outputs showed higher ROUGE scores in these three tasks. The study demonstrated the potential of using large language models fine-tuned using domain-specific knowledge like RadOnc-GPT to achieve transformational capabilities in highly specialized healthcare fields such as radiation oncology. However, our model's clinical relevance requires confirmation, and it specializes in only the aforementioned three specific tasks and lacks broader applicability. Furthermore, its evaluation through ROUGE scores might not reflect the true semantic and clinical accuracy - challenges we intend to address in future research.

Published

2023

15. Artificial General Intelligence for Radiation Oncology

Author

Liu, Chenbin, Liu, Zhengliang, Holmes, Jason, Zhang, Lu, Zhang, Lian, Ding, Yuzhen, Shu, Peng, Wu, Zihao, Dai, Haixing, Li, Yiwei, Shen, Dinggang, Liu, Ninghao, Li, Quanzheng, Li, Xiang, Zhu, Dajiang, Liu, Tianming, and Liu, Wei

Subjects

Physics - Medical Physics

Abstract

The emergence of artificial general intelligence (AGI) is transforming radiation oncology. As prominent vanguards of AGI, large language models (LLMs) such as GPT-4 and PaLM 2 can process extensive texts and large vision models (LVMs) such as the Segment Anything Model (SAM) can process extensive imaging data to enhance the efficiency and precision of radiation therapy. This paper explores full-spectrum applications of AGI across radiation oncology including initial consultation, simulation, treatment planning, treatment delivery, treatment verification, and patient follow-up. The fusion of vision data with LLMs also creates powerful multimodal models that elucidate nuanced clinical patterns. Together, AGI promises to catalyze a shift towards data-driven, personalized radiation therapy. However, these models should complement human expertise and care. This paper provides an overview of how AGI can transform radiation oncology to elevate the standard of patient care in radiation oncology, with the key insight being AGI's ability to exploit multimodal clinical data at scale.

Published

2023

16. Radiology-Llama2: Best-in-Class Large Language Model for Radiology

Author

Liu, Zhengliang, Li, Yiwei, Shu, Peng, Zhong, Aoxiao, Yang, Longtao, Ju, Chao, Wu, Zihao, Ma, Chong, Luo, Jie, Chen, Cheng, Kim, Sekeun, Hu, Jiang, Dai, Haixing, Zhao, Lin, Zhu, Dajiang, Liu, Jun, Liu, Wei, Shen, Dinggang, Liu, Tianming, Li, Quanzheng, and Li, Xiang

Subjects

Computer Science - Computation and Language

Abstract

This paper introduces Radiology-Llama2, a large language model specialized for radiology through a process known as instruction tuning. Radiology-Llama2 is based on the Llama2 architecture and further trained on a large dataset of radiology reports to generate coherent and clinically useful impressions from radiological findings. Quantitative evaluations using ROUGE metrics on the MIMIC-CXR and OpenI datasets demonstrate that Radiology-Llama2 achieves state-of-the-art performance compared to other generative language models, with a Rouge-1 score of 0.4834 on MIMIC-CXR and 0.4185 on OpenI. Additional assessments by radiology experts highlight the model's strengths in understandability, coherence, relevance, conciseness, and clinical utility. The work illustrates the potential of localized language models designed and tuned for specialized domains like radiology. When properly evaluated and deployed, such models can transform fields like radiology by automating rote tasks and enhancing human expertise.

Published

2023

17. Robust Core-Periphery Constrained Transformer for Domain Adaptation

Author

Yu, Xiaowei, Zhu, Dajiang, and Liu, Tianming

Subjects

Quantitative Biology - Neurons and Cognition

Abstract

Unsupervised domain adaptation (UDA) aims to learn transferable representation across domains. Recently a few UDA works have successfully applied Transformer-based methods and achieved state-of-the-art (SOTA) results. However, it remains challenging when there exists a large domain gap between the source and target domain. Inspired by humans' exceptional transferability abilities to adapt knowledge from familiar to uncharted domains, we try to apply the universally existing organizational structure in the human functional brain networks, i.e., the core-periphery principle to design the Transformer and improve its UDA performance. In this paper, we propose a novel brain-inspired robust core-periphery constrained transformer (RCCT) for unsupervised domain adaptation, which brings a large margin of performance improvement on various datasets. Specifically, in RCCT, the self-attention operation across image patches is rescheduled by an adaptively learned weighted graph with the Core-Periphery structure (CP graph), where the information communication and exchange between images patches are manipulated and controlled by the connection strength, i.e., edge weight of the learned weighted CP graph. Besides, since the data in domain adaptation tasks can be noisy, to improve the model robustness, we intentionally add perturbations to the patches in the latent space to ensure generating robust learned weighted core-periphery graphs. Extensive evaluations are conducted on several widely tested UDA benchmarks. Our proposed RCCT consistently performs best compared to existing works, including 88.3\% on Office-Home, 95.0\% on Office-31, 90.7\% on VisDA-2017, and 46.0\% on DomainNet., Comment: Core-Periphery, ViT, Unsupervised domain adaptation

Published

2023

18. Evaluating Large Language Models for Radiology Natural Language Processing

Author

Liu, Zhengliang, Zhong, Tianyang, Li, Yiwei, Zhang, Yutong, Pan, Yi, Zhao, Zihao, Dong, Peixin, Cao, Chao, Liu, Yuxiao, Shu, Peng, Wei, Yaonai, Wu, Zihao, Ma, Chong, Wang, Jiaqi, Wang, Sheng, Zhou, Mengyue, Jiang, Zuowei, Li, Chunlin, Holmes, Jason, Xu, Shaochen, Zhang, Lu, Dai, Haixing, Zhang, Kai, Zhao, Lin, Chen, Yuanhao, Liu, Xu, Wang, Peilong, Yan, Pingkun, Liu, Jun, Ge, Bao, Sun, Lichao, Zhu, Dajiang, Li, Xiang, Liu, Wei, Cai, Xiaoyan, Hu, Xintao, Jiang, Xi, Zhang, Shu, Zhang, Xin, Zhang, Tuo, Zhao, Shijie, Li, Quanzheng, Zhu, Hongtu, Shen, Dinggang, and Liu, Tianming

Subjects

Computer Science - Computation and Language

Abstract

The rise of large language models (LLMs) has marked a pivotal shift in the field of natural language processing (NLP). LLMs have revolutionized a multitude of domains, and they have made a significant impact in the medical field. Large language models are now more abundant than ever, and many of these models exhibit bilingual capabilities, proficient in both English and Chinese. However, a comprehensive evaluation of these models remains to be conducted. This lack of assessment is especially apparent within the context of radiology NLP. This study seeks to bridge this gap by critically evaluating thirty two LLMs in interpreting radiology reports, a crucial component of radiology NLP. Specifically, the ability to derive impressions from radiologic findings is assessed. The outcomes of this evaluation provide key insights into the performance, strengths, and weaknesses of these LLMs, informing their practical applications within the medical domain.

Published

2023

19. Hierarchical Semantic Tree Concept Whitening for Interpretable Image Classification

Author

Dai, Haixing, Zhang, Lu, Zhao, Lin, Wu, Zihao, Liu, Zhengliang, Liu, David, Yu, Xiaowei, Lyu, Yanjun, Li, Changying, Liu, Ninghao, Liu, Tianming, and Zhu, Dajiang

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

With the popularity of deep neural networks (DNNs), model interpretability is becoming a critical concern. Many approaches have been developed to tackle the problem through post-hoc analysis, such as explaining how predictions are made or understanding the meaning of neurons in middle layers. Nevertheless, these methods can only discover the patterns or rules that naturally exist in models. In this work, rather than relying on post-hoc schemes, we proactively instill knowledge to alter the representation of human-understandable concepts in hidden layers. Specifically, we use a hierarchical tree of semantic concepts to store the knowledge, which is leveraged to regularize the representations of image data instances while training deep models. The axes of the latent space are aligned with the semantic concepts, where the hierarchical relations between concepts are also preserved. Experiments on real-world image datasets show that our method improves model interpretability, showing better disentanglement of semantic concepts, without negatively affecting model classification performance.

Published

2023

20. Exploring Multimodal Approaches for Alzheimer's Disease Detection Using Patient Speech Transcript and Audio Data

Author

Cai, Hongmin, Huang, Xiaoke, Liu, Zhengliang, Liao, Wenxiong, Dai, Haixing, Wu, Zihao, Zhu, Dajiang, Ren, Hui, Li, Quanzheng, Liu, Tianming, and Li, Xiang

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Artificial Intelligence, Computer Science - Sound

Abstract

Alzheimer's disease (AD) is a common form of dementia that severely impacts patient health. As AD impairs the patient's language understanding and expression ability, the speech of AD patients can serve as an indicator of this disease. This study investigates various methods for detecting AD using patients' speech and transcripts data from the DementiaBank Pitt database. The proposed approach involves pre-trained language models and Graph Neural Network (GNN) that constructs a graph from the speech transcript, and extracts features using GNN for AD detection. Data augmentation techniques, including synonym replacement, GPT-based augmenter, and so on, were used to address the small dataset size. Audio data was also introduced, and WavLM model was used to extract audio features. These features were then fused with text features using various methods. Finally, a contrastive learning approach was attempted by converting speech transcripts back to audio and using it for contrastive learning with the original audio. We conducted intensive experiments and analysis on the above methods. Our findings shed light on the challenges and potential solutions in AD detection using speech and audio data.

Published

2023

21. Identification of Causal Relationship between Amyloid-beta Accumulation and Alzheimer's Disease Progression via Counterfactual Inference

Author

Dai, Haixing, Hu, Mengxuan, Li, Qing, Zhang, Lu, Zhao, Lin, Zhu, Dajiang, Diez, Ibai, Sepulcre, Jorge, Zhang, Fan, Gao, Xingyu, Liu, Manhua, Li, Quanzheng, Li, Sheng, Liu, Tianming, and Li, Xiang

Subjects

Computer Science - Machine Learning, Statistics - Methodology

Abstract

Alzheimer's disease (AD) is a neurodegenerative disorder that is beginning with amyloidosis, followed by neuronal loss and deterioration in structure, function, and cognition. The accumulation of amyloid-beta in the brain, measured through 18F-florbetapir (AV45) positron emission tomography (PET) imaging, has been widely used for early diagnosis of AD. However, the relationship between amyloid-beta accumulation and AD pathophysiology remains unclear, and causal inference approaches are needed to uncover how amyloid-beta levels can impact AD development. In this paper, we propose a graph varying coefficient neural network (GVCNet) for estimating the individual treatment effect with continuous treatment levels using a graph convolutional neural network. We highlight the potential of causal inference approaches, including GVCNet, for measuring the regional causal connections between amyloid-beta accumulation and AD pathophysiology, which may serve as a robust tool for early diagnosis and tailored care.

Published

2023

22. SAMAug: Point Prompt Augmentation for Segment Anything Model

Author

Dai, Haixing, Ma, Chong, Yan, Zhiling, Liu, Zhengliang, Shi, Enze, Li, Yiwei, Shu, Peng, Wei, Xiaozheng, Zhao, Lin, Wu, Zihao, Zeng, Fang, Zhu, Dajiang, Liu, Wei, Li, Quanzheng, Sun, Lichao, Liu, Shu Zhang Tianming, and Li, Xiang

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

This paper introduces SAMAug, a novel visual point augmentation method for the Segment Anything Model (SAM) that enhances interactive image segmentation performance. SAMAug generates augmented point prompts to provide more information about the user's intention to SAM. Starting with an initial point prompt, SAM produces an initial mask, which is then fed into our proposed SAMAug to generate augmented point prompts. By incorporating these extra points, SAM can generate augmented segmentation masks based on both the augmented point prompts and the initial prompt, resulting in improved segmentation performance. We conducted evaluations using four different point augmentation strategies: random sampling, sampling based on maximum difference entropy, maximum distance, and saliency. Experiment results on the COCO, Fundus, COVID QUEx, and ISIC2018 datasets show that SAMAug can boost SAM's segmentation results, especially using the maximum distance and saliency. SAMAug demonstrates the potential of visual prompt augmentation for computer vision. Codes of SAMAug are available at github.com/yhydhx/SAMAug

Published

2023

23. Review of Large Vision Models and Visual Prompt Engineering

Author

Wang, Jiaqi, Liu, Zhengliang, Zhao, Lin, Wu, Zihao, Ma, Chong, Yu, Sigang, Dai, Haixing, Yang, Qiushi, Liu, Yiheng, Zhang, Songyao, Shi, Enze, Pan, Yi, Zhang, Tuo, Zhu, Dajiang, Li, Xiang, Jiang, Xi, Ge, Bao, Yuan, Yixuan, Shen, Dinggang, Liu, Tianming, and Zhang, Shu

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

Visual prompt engineering is a fundamental technology in the field of visual and image Artificial General Intelligence, serving as a key component for achieving zero-shot capabilities. As the development of large vision models progresses, the importance of prompt engineering becomes increasingly evident. Designing suitable prompts for specific visual tasks has emerged as a meaningful research direction. This review aims to summarize the methods employed in the computer vision domain for large vision models and visual prompt engineering, exploring the latest advancements in visual prompt engineering. We present influential large models in the visual domain and a range of prompt engineering methods employed on these models. It is our hope that this review provides a comprehensive and systematic description of prompt engineering methods based on large visual models, offering valuable insights for future researchers in their exploration of this field.

Published

2023

24. Segment Anything Model (SAM) for Radiation Oncology

Author

Zhang, Lian, Liu, Zhengliang, Zhang, Lu, Wu, Zihao, Yu, Xiaowei, Holmes, Jason, Feng, Hongying, Dai, Haixing, Li, Xiang, Li, Quanzheng, Zhu, Dajiang, Liu, Tianming, and Liu, Wei

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning

Abstract

In this study, we evaluate the performance of the Segment Anything Model (SAM) in clinical radiotherapy. Our results indicate that SAM's 'segment anything' mode can achieve clinically acceptable segmentation results in most organs-at-risk (OARs) with Dice scores higher than 0.7. SAM's 'box prompt' mode further improves the Dice scores by 0.1 to 0.5. Considering the size of the organ and the clarity of its boundary, SAM displays better performance for large organs with clear boundaries but performs worse for smaller organs with unclear boundaries. Given that SAM, a model pre-trained purely on natural images, can handle the delineation of OARs from medical images with clinically acceptable accuracy, these results highlight SAM's robust generalization capabilities with consistent accuracy in automatic segmentation for radiotherapy. In other words, SAM can achieve delineation of different OARs at different sites using a generic automatic segmentation model. SAM's generalization capabilities across different disease sites suggest that it is technically feasible to develop a generic model for automatic segmentation in radiotherapy.

Published

2023

25. AD-AutoGPT: An Autonomous GPT for Alzheimer's Disease Infodemiology

Author

Dai, Haixing, Li, Yiwei, Liu, Zhengliang, Zhao, Lin, Wu, Zihao, Song, Suhang, Shen, Ye, Zhu, Dajiang, Li, Xiang, Li, Sheng, Yao, Xiaobai, Shi, Lu, Li, Quanzheng, Chen, Zhuo, Zhang, Donglan, Mai, Gengchen, and Liu, Tianming

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Information Retrieval, 68T01, 68T50, 92C50, I.2.7, I.2.1, J.3

Abstract

In this pioneering study, inspired by AutoGPT, the state-of-the-art open-source application based on the GPT-4 large language model, we develop a novel tool called AD-AutoGPT which can conduct data collection, processing, and analysis about complex health narratives of Alzheimer's Disease in an autonomous manner via users' textual prompts. We collated comprehensive data from a variety of news sources, including the Alzheimer's Association, BBC, Mayo Clinic, and the National Institute on Aging since June 2022, leading to the autonomous execution of robust trend analyses, intertopic distance maps visualization, and identification of salient terms pertinent to Alzheimer's Disease. This approach has yielded not only a quantifiable metric of relevant discourse but also valuable insights into public focus on Alzheimer's Disease. This application of AD-AutoGPT in public health signifies the transformative potential of AI in facilitating a data-rich understanding of complex health narratives like Alzheimer's Disease in an autonomous manner, setting the groundwork for future AI-driven investigations in global health landscapes., Comment: 20 pages, 4 figures

Published

2023

26. Radiology-GPT: A Large Language Model for Radiology

Author

Liu, Zhengliang, Zhong, Aoxiao, Li, Yiwei, Yang, Longtao, Ju, Chao, Wu, Zihao, Ma, Chong, Shu, Peng, Chen, Cheng, Kim, Sekeun, Dai, Haixing, Zhao, Lin, Sun, Lichao, Zhu, Dajiang, Liu, Jun, Liu, Wei, Shen, Dinggang, Li, Xiang, Li, Quanzheng, and Liu, Tianming

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence

Abstract

We introduce Radiology-GPT, a large language model for radiology. Using an instruction tuning approach on an extensive dataset of radiology domain knowledge, Radiology-GPT demonstrates superior performance compared to general language models such as StableLM, Dolly and LLaMA. It exhibits significant versatility in radiological diagnosis, research, and communication. This work serves as a catalyst for future developments in clinical NLP. The successful implementation of Radiology-GPT is indicative of the potential of localizing generative large language models, specifically tailored for distinctive medical specialties, while ensuring adherence to privacy standards such as HIPAA. The prospect of developing individualized, large-scale language models that cater to specific needs of various hospitals presents a promising direction. The fusion of conversational competence and domain-specific knowledge in these models is set to foster future development in healthcare AI. A demo of Radiology-GPT is available at https://huggingface.co/spaces/allen-eric/radiology-gpt.

Published

2023

27. Artificial General Intelligence for Medical Imaging

Author

Li, Xiang, Zhang, Lu, Wu, Zihao, Liu, Zhengliang, Zhao, Lin, Yuan, Yixuan, Liu, Jun, Li, Gang, Zhu, Dajiang, Yan, Pingkun, Li, Quanzheng, Liu, Wei, Liu, Tianming, and Shen, Dinggang

Subjects

Computer Science - Artificial Intelligence

Abstract

In this review, we explore the potential applications of Artificial General Intelligence (AGI) models in healthcare, focusing on foundational Large Language Models (LLMs), Large Vision Models, and Large Multimodal Models. We emphasize the importance of integrating clinical expertise, domain knowledge, and multimodal capabilities into AGI models. In addition, we lay out key roadmaps that guide the development and deployment of healthcare AGI models. Throughout the review, we provide critical perspectives on the potential challenges and pitfalls associated with deploying large-scale AGI models in the medical field. This comprehensive review aims to offer insights into the future implications of AGI in medical imaging, healthcare and beyond.

Published

2023

28. Instruction-ViT: Multi-Modal Prompts for Instruction Learning in ViT

Author

Xiao, Zhenxiang, Chen, Yuzhong, Zhang, Lu, Yao, Junjie, Wu, Zihao, Yu, Xiaowei, Pan, Yi, Zhao, Lin, Ma, Chong, Liu, Xinyu, Liu, Wei, Li, Xiang, Yuan, Yixuan, Shen, Dinggang, Zhu, Dajiang, Liu, Tianming, and Jiang, Xi

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Prompts have been proven to play a crucial role in large language models, and in recent years, vision models have also been using prompts to improve scalability for multiple downstream tasks. In this paper, we focus on adapting prompt design based on instruction tuning into a visual transformer model for image classification which we called Instruction-ViT. The key idea is to implement multi-modal prompts (text or image prompt) related to category information to guide the fine-tuning of the model. Based on the experiments of several image captionining tasks, the performance and domain adaptability were improved. Our work provided an innovative strategy to fuse multi-modal prompts with better performance and faster adaptability for visual classification models.

Published

2023

29. Prompt Engineering for Healthcare: Methodologies and Applications

Author

Wang, Jiaqi, Shi, Enze, Yu, Sigang, Wu, Zihao, Ma, Chong, Dai, Haixing, Yang, Qiushi, Kang, Yanqing, Wu, Jinru, Hu, Huawen, Yue, Chenxi, Zhang, Haiyang, Liu, Yiheng, Pan, Yi, Liu, Zhengliang, Sun, Lichao, Li, Xiang, Ge, Bao, Jiang, Xi, Zhu, Dajiang, Yuan, Yixuan, Shen, Dinggang, Liu, Tianming, and Zhang, Shu

Subjects

Computer Science - Artificial Intelligence

Abstract

Prompt engineering is a critical technique in the field of natural language processing that involves designing and optimizing the prompts used to input information into models, aiming to enhance their performance on specific tasks. With the recent advancements in large language models, prompt engineering has shown significant superiority across various domains and has become increasingly important in the healthcare domain. However, there is a lack of comprehensive reviews specifically focusing on prompt engineering in the medical field. This review will introduce the latest advances in prompt engineering in the field of natural language processing for the medical field. First, we will provide the development of prompt engineering and emphasize its significant contributions to healthcare natural language processing applications such as question-answering systems, text summarization, and machine translation. With the continuous improvement of general large language models, the importance of prompt engineering in the healthcare domain is becoming increasingly prominent. The aim of this article is to provide useful resources and bridges for healthcare natural language processing researchers to better explore the application of prompt engineering in this field. We hope that this review can provide new ideas and inspire for research and application in medical natural language processing.

Published

2023

30. Differentiate ChatGPT-generated and Human-written Medical Texts

Author

Liao, Wenxiong, Liu, Zhengliang, Dai, Haixing, Xu, Shaochen, Wu, Zihao, Zhang, Yiyang, Huang, Xiaoke, Zhu, Dajiang, Cai, Hongmin, Liu, Tianming, and Li, Xiang

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence

Abstract

Background: Large language models such as ChatGPT are capable of generating grammatically perfect and human-like text content, and a large number of ChatGPT-generated texts have appeared on the Internet. However, medical texts such as clinical notes and diagnoses require rigorous validation, and erroneous medical content generated by ChatGPT could potentially lead to disinformation that poses significant harm to healthcare and the general public. Objective: This research is among the first studies on responsible and ethical AIGC (Artificial Intelligence Generated Content) in medicine. We focus on analyzing the differences between medical texts written by human experts and generated by ChatGPT, and designing machine learning workflows to effectively detect and differentiate medical texts generated by ChatGPT. Methods: We first construct a suite of datasets containing medical texts written by human experts and generated by ChatGPT. In the next step, we analyze the linguistic features of these two types of content and uncover differences in vocabulary, part-of-speech, dependency, sentiment, perplexity, etc. Finally, we design and implement machine learning methods to detect medical text generated by ChatGPT. Results: Medical texts written by humans are more concrete, more diverse, and typically contain more useful information, while medical texts generated by ChatGPT pay more attention to fluency and logic, and usually express general terminologies rather than effective information specific to the context of the problem. A BERT-based model can effectively detect medical texts generated by ChatGPT, and the F1 exceeds 95%.

Published

2023

31. ChatABL: Abductive Learning via Natural Language Interaction with ChatGPT

Author

Zhong, Tianyang, Wei, Yaonai, Yang, Li, Wu, Zihao, Liu, Zhengliang, Wei, Xiaozheng, Li, Wenjun, Yao, Junjie, Ma, Chong, Li, Xiang, Zhu, Dajiang, Jiang, Xi, Han, Junwei, Shen, Dinggang, Liu, Tianming, and Zhang, Tuo

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence

Abstract

Large language models (LLMs) such as ChatGPT have recently demonstrated significant potential in mathematical abilities, providing valuable reasoning paradigm consistent with human natural language. However, LLMs currently have difficulty in bridging perception, language understanding and reasoning capabilities due to incompatibility of the underlying information flow among them, making it challenging to accomplish tasks autonomously. On the other hand, abductive learning (ABL) frameworks for integrating the two abilities of perception and reasoning has seen significant success in inverse decipherment of incomplete facts, but it is limited by the lack of semantic understanding of logical reasoning rules and the dependence on complicated domain knowledge representation. This paper presents a novel method (ChatABL) for integrating LLMs into the ABL framework, aiming at unifying the three abilities in a more user-friendly and understandable manner. The proposed method uses the strengths of LLMs' understanding and logical reasoning to correct the incomplete logical facts for optimizing the performance of perceptual module, by summarizing and reorganizing reasoning rules represented in natural language format. Similarly, perceptual module provides necessary reasoning examples for LLMs in natural language format. The variable-length handwritten equation deciphering task, an abstract expression of the Mayan calendar decoding, is used as a testbed to demonstrate that ChatABL has reasoning ability beyond most existing state-of-the-art methods, which has been well supported by comparative studies. To our best knowledge, the proposed ChatABL is the first attempt to explore a new pattern for further approaching human-level cognitive ability via natural language interaction with ChatGPT.

Published

2023

32. Exploring the Trade-Offs: Unified Large Language Models vs Local Fine-Tuned Models for Highly-Specific Radiology NLI Task

Author

Wu, Zihao, Zhang, Lu, Cao, Chao, Yu, Xiaowei, Dai, Haixing, Ma, Chong, Liu, Zhengliang, Zhao, Lin, Li, Gang, Liu, Wei, Li, Quanzheng, Shen, Dinggang, Li, Xiang, Zhu, Dajiang, and Liu, Tianming

Subjects

Computer Science - Computation and Language

Abstract

Recently, ChatGPT and GPT-4 have emerged and gained immense global attention due to their unparalleled performance in language processing. Despite demonstrating impressive capability in various open-domain tasks, their adequacy in highly specific fields like radiology remains untested. Radiology presents unique linguistic phenomena distinct from open-domain data due to its specificity and complexity. Assessing the performance of large language models (LLMs) in such specific domains is crucial not only for a thorough evaluation of their overall performance but also for providing valuable insights into future model design directions: whether model design should be generic or domain-specific. To this end, in this study, we evaluate the performance of ChatGPT/GPT-4 on a radiology NLI task and compare it to other models fine-tuned specifically on task-related data samples. We also conduct a comprehensive investigation on ChatGPT/GPT-4's reasoning ability by introducing varying levels of inference difficulty. Our results show that 1) GPT-4 outperforms ChatGPT in the radiology NLI task; 2) other specifically fine-tuned models require significant amounts of data samples to achieve comparable performance to ChatGPT/GPT-4. These findings demonstrate that constructing a generic model that is capable of solving various tasks across different domains is feasible.

Published

2023

33. An Iterative Optimizing Framework for Radiology Report Summarization with ChatGPT

Author

Ma, Chong, Wu, Zihao, Wang, Jiaqi, Xu, Shaochen, Wei, Yaonai, Zeng, Fang, Liu, Zhengliang, Jiang, Xi, Guo, Lei, Cai, Xiaoyan, Zhang, Shu, Zhang, Tuo, Zhu, Dajiang, Shen, Dinggang, Liu, Tianming, and Li, Xiang

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, 68T50, 68T37, 68T20, I.2.7

Abstract

The 'Impression' section of a radiology report is a critical basis for communication between radiologists and other physicians, and it is typically written by radiologists based on the 'Findings' section. However, writing numerous impressions can be laborious and error-prone for radiologists. Although recent studies have achieved promising results in automatic impression generation using large-scale medical text data for pre-training and fine-tuning pre-trained language models, such models often require substantial amounts of medical text data and have poor generalization performance. While large language models (LLMs) like ChatGPT have shown strong generalization capabilities and performance, their performance in specific domains, such as radiology, remains under-investigated and potentially limited. To address this limitation, we propose ImpressionGPT, which leverages the in-context learning capability of LLMs by constructing dynamic contexts using domain-specific, individualized data. This dynamic prompt approach enables the model to learn contextual knowledge from semantically similar examples from existing data. Additionally, we design an iterative optimization algorithm that performs automatic evaluation on the generated impression results and composes the corresponding instruction prompts to further optimize the model. The proposed ImpressionGPT model achieves state-of-the-art performance on both MIMIC-CXR and OpenI datasets without requiring additional training data or fine-tuning the LLMs. This work presents a paradigm for localizing LLMs that can be applied in a wide range of similar application scenarios, bridging the gap between general-purpose LLMs and the specific language processing needs of various domains., Comment: Change to the published version. "ImpressionGPT" has been removed from the title

Published

2023

34. AGI for Agriculture

Author

Lu, Guoyu, Li, Sheng, Mai, Gengchen, Sun, Jin, Zhu, Dajiang, Chai, Lilong, Sun, Haijian, Wang, Xianqiao, Dai, Haixing, Liu, Ninghao, Xu, Rui, Petti, Daniel, Li, Changying, and Liu, Tianming

Subjects

Computer Science - Artificial Intelligence, Computer Science - Computers and Society

Abstract

Artificial General Intelligence (AGI) is poised to revolutionize a variety of sectors, including healthcare, finance, transportation, and education. Within healthcare, AGI is being utilized to analyze clinical medical notes, recognize patterns in patient data, and aid in patient management. Agriculture is another critical sector that impacts the lives of individuals worldwide. It serves as a foundation for providing food, fiber, and fuel, yet faces several challenges, such as climate change, soil degradation, water scarcity, and food security. AGI has the potential to tackle these issues by enhancing crop yields, reducing waste, and promoting sustainable farming practices. It can also help farmers make informed decisions by leveraging real-time data, leading to more efficient and effective farm management. This paper delves into the potential future applications of AGI in agriculture, such as agriculture image processing, natural language processing (NLP), robotics, knowledge graphs, and infrastructure, and their impact on precision livestock and precision crops. By leveraging the power of AGI, these emerging technologies can provide farmers with actionable insights, allowing for optimized decision-making and increased productivity. The transformative potential of AGI in agriculture is vast, and this paper aims to highlight its potential to revolutionize the industry.

Published

2023

35. Summary of ChatGPT-Related Research and Perspective Towards the Future of Large Language Models

Author

Liu, Yiheng, Han, Tianle, Ma, Siyuan, Zhang, Jiayue, Yang, Yuanyuan, Tian, Jiaming, He, Hao, Li, Antong, He, Mengshen, Liu, Zhengliang, Wu, Zihao, Zhao, Lin, Zhu, Dajiang, Li, Xiang, Qiang, Ning, Shen, Dingang, Liu, Tianming, and Ge, Bao

Subjects

Computer Science - Computation and Language

Abstract

This paper presents a comprehensive survey of ChatGPT-related (GPT-3.5 and GPT-4) research, state-of-the-art large language models (LLM) from the GPT series, and their prospective applications across diverse domains. Indeed, key innovations such as large-scale pre-training that captures knowledge across the entire world wide web, instruction fine-tuning and Reinforcement Learning from Human Feedback (RLHF) have played significant roles in enhancing LLMs' adaptability and performance. We performed an in-depth analysis of 194 relevant papers on arXiv, encompassing trend analysis, word cloud representation, and distribution analysis across various application domains. The findings reveal a significant and increasing interest in ChatGPT-related research, predominantly centered on direct natural language processing applications, while also demonstrating considerable potential in areas ranging from education and history to mathematics, medicine, and physics. This study endeavors to furnish insights into ChatGPT's capabilities, potential implications, ethical concerns, and offer direction for future advancements in this field., Comment: 21 pages, 4 figures, accepted by Meta-Radiology

Published

2023

36. When Brain-inspired AI Meets AGI

Author

Zhao, Lin, Zhang, Lu, Wu, Zihao, Chen, Yuzhong, Dai, Haixing, Yu, Xiaowei, Liu, Zhengliang, Zhang, Tuo, Hu, Xintao, Jiang, Xi, Li, Xiang, Zhu, Dajiang, Shen, Dinggang, and Liu, Tianming

Subjects

Computer Science - Artificial Intelligence

Abstract

Artificial General Intelligence (AGI) has been a long-standing goal of humanity, with the aim of creating machines capable of performing any intellectual task that humans can do. To achieve this, AGI researchers draw inspiration from the human brain and seek to replicate its principles in intelligent machines. Brain-inspired artificial intelligence is a field that has emerged from this endeavor, combining insights from neuroscience, psychology, and computer science to develop more efficient and powerful AI systems. In this article, we provide a comprehensive overview of brain-inspired AI from the perspective of AGI. We begin with the current progress in brain-inspired AI and its extensive connection with AGI. We then cover the important characteristics for both human intelligence and AGI (e.g., scaling, multimodality, and reasoning). We discuss important technologies toward achieving AGI in current AI systems, such as in-context learning and prompt tuning. We also investigate the evolution of AGI systems from both algorithmic and infrastructural perspectives. Finally, we explore the limitations and future of AGI.

Published

2023

37. Core-Periphery Principle Guided Redesign of Self-Attention in Transformers

Author

Yu, Xiaowei, Zhang, Lu, Dai, Haixing, Lyu, Yanjun, Zhao, Lin, Wu, Zihao, Liu, David, Liu, Tianming, and Zhu, Dajiang

Subjects

Computer Science - Machine Learning, Quantitative Biology - Neurons and Cognition

Abstract

Designing more efficient, reliable, and explainable neural network architectures is critical to studies that are based on artificial intelligence (AI) techniques. Previous studies, by post-hoc analysis, have found that the best-performing ANNs surprisingly resemble biological neural networks (BNN), which indicates that ANNs and BNNs may share some common principles to achieve optimal performance in either machine learning or cognitive/behavior tasks. Inspired by this phenomenon, we proactively instill organizational principles of BNNs to guide the redesign of ANNs. We leverage the Core-Periphery (CP) organization, which is widely found in human brain networks, to guide the information communication mechanism in the self-attention of vision transformer (ViT) and name this novel framework as CP-ViT. In CP-ViT, the attention operation between nodes is defined by a sparse graph with a Core-Periphery structure (CP graph), where the core nodes are redesigned and reorganized to play an integrative role and serve as a center for other periphery nodes to exchange information. We evaluated the proposed CP-ViT on multiple public datasets, including medical image datasets (INbreast) and natural image datasets. Interestingly, by incorporating the BNN-derived principle (CP structure) into the redesign of ViT, our CP-ViT outperforms other state-of-the-art ANNs. In general, our work advances the state of the art in three aspects: 1) This work provides novel insights for brain-inspired AI: we can utilize the principles found in BNNs to guide and improve our ANN architecture design; 2) We show that there exist sweet spots of CP graphs that lead to CP-ViTs with significantly improved performance; and 3) The core nodes in CP-ViT correspond to task-related meaningful and important image patches, which can significantly enhance the interpretability of the trained deep model., Comment: Core-periphery, functional brain networks, ViT

Published

2023

38. CP-CNN: Core-Periphery Principle Guided Convolutional Neural Network

Author

Zhao, Lin, Dai, Haixing, Wu, Zihao, Zhu, Dajiang, and Liu, Tianming

Subjects

Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

The evolution of convolutional neural networks (CNNs) can be largely attributed to the design of its architecture, i.e., the network wiring pattern. Neural architecture search (NAS) advances this by automating the search for the optimal network architecture, but the resulting network instance may not generalize well in different tasks. To overcome this, exploring network design principles that are generalizable across tasks is a more practical solution. In this study, We explore a novel brain-inspired design principle based on the core-periphery property of the human brain network to guide the design of CNNs. Our work draws inspiration from recent studies suggesting that artificial and biological neural networks may have common principles in optimizing network architecture. We implement the core-periphery principle in the design of network wiring patterns and the sparsification of the convolution operation. The resulting core-periphery principle guided CNNs (CP-CNNs) are evaluated on three different datasets. The experiments demonstrate the effectiveness and superiority compared to CNNs and ViT-based methods. Overall, our work contributes to the growing field of brain-inspired AI by incorporating insights from the human brain into the design of neural networks.

Published

2023

39. DeID-GPT: Zero-shot Medical Text De-Identification by GPT-4

Author

Liu, Zhengliang, Huang, Yue, Yu, Xiaowei, Zhang, Lu, Wu, Zihao, Cao, Chao, Dai, Haixing, Zhao, Lin, Li, Yiwei, Shu, Peng, Zeng, Fang, Sun, Lichao, Liu, Wei, Shen, Dinggang, Li, Quanzheng, Liu, Tianming, Zhu, Dajiang, and Li, Xiang

Subjects

Computer Science - Computation and Language, Computer Science - Computers and Society

Abstract

The digitization of healthcare has facilitated the sharing and re-using of medical data but has also raised concerns about confidentiality and privacy. HIPAA (Health Insurance Portability and Accountability Act) mandates removing re-identifying information before the dissemination of medical records. Thus, effective and efficient solutions for de-identifying medical data, especially those in free-text forms, are highly needed. While various computer-assisted de-identification methods, including both rule-based and learning-based, have been developed and used in prior practice, such solutions still lack generalizability or need to be fine-tuned according to different scenarios, significantly imposing restrictions in wider use. The advancement of large language models (LLM), such as ChatGPT and GPT-4, have shown great potential in processing text data in the medical domain with zero-shot in-context learning, especially in the task of privacy protection, as these models can identify confidential information by their powerful named entity recognition (NER) capability. In this work, we developed a novel GPT4-enabled de-identification framework (``DeID-GPT") to automatically identify and remove the identifying information. Compared to existing commonly used medical text data de-identification methods, our developed DeID-GPT showed the highest accuracy and remarkable reliability in masking private information from the unstructured medical text while preserving the original structure and meaning of the text. This study is one of the earliest to utilize ChatGPT and GPT-4 for medical text data processing and de-identification, which provides insights for further research and solution development on the use of LLMs such as ChatGPT/GPT-4 in healthcare. Codes and benchmarking data information are available at https://github.com/yhydhx/ChatGPT-API.

Published

2023

40. AugGPT: Leveraging ChatGPT for Text Data Augmentation

Author

Dai, Haixing, Liu, Zhengliang, Liao, Wenxiong, Huang, Xiaoke, Cao, Yihan, Wu, Zihao, Zhao, Lin, Xu, Shaochen, Liu, Wei, Liu, Ninghao, Li, Sheng, Zhu, Dajiang, Cai, Hongmin, Sun, Lichao, Li, Quanzheng, Shen, Dinggang, Liu, Tianming, and Li, Xiang

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Text data augmentation is an effective strategy for overcoming the challenge of limited sample sizes in many natural language processing (NLP) tasks. This challenge is especially prominent in the few-shot learning scenario, where the data in the target domain is generally much scarcer and of lowered quality. A natural and widely-used strategy to mitigate such challenges is to perform data augmentation to better capture the data invariance and increase the sample size. However, current text data augmentation methods either can't ensure the correct labeling of the generated data (lacking faithfulness) or can't ensure sufficient diversity in the generated data (lacking compactness), or both. Inspired by the recent success of large language models, especially the development of ChatGPT, which demonstrated improved language comprehension abilities, in this work, we propose a text data augmentation approach based on ChatGPT (named AugGPT). AugGPT rephrases each sentence in the training samples into multiple conceptually similar but semantically different samples. The augmented samples can then be used in downstream model training. Experiment results on few-shot learning text classification tasks show the superior performance of the proposed AugGPT approach over state-of-the-art text data augmentation methods in terms of testing accuracy and distribution of the augmented samples.

Published

2023

41. Mask-guided BERT for Few Shot Text Classification

Author

Liao, Wenxiong, Liu, Zhengliang, Dai, Haixing, Wu, Zihao, Zhang, Yiyang, Huang, Xiaoke, Chen, Yuzhong, Jiang, Xi, Liu, Wei, Zhu, Dajiang, Liu, Tianming, Li, Sheng, Li, Xiang, and Cai, Hongmin

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence

Abstract

Transformer-based language models have achieved significant success in various domains. However, the data-intensive nature of the transformer architecture requires much labeled data, which is challenging in low-resource scenarios (i.e., few-shot learning (FSL)). The main challenge of FSL is the difficulty of training robust models on small amounts of samples, which frequently leads to overfitting. Here we present Mask-BERT, a simple and modular framework to help BERT-based architectures tackle FSL. The proposed approach fundamentally differs from existing FSL strategies such as prompt tuning and meta-learning. The core idea is to selectively apply masks on text inputs and filter out irrelevant information, which guides the model to focus on discriminative tokens that influence prediction results. In addition, to make the text representations from different categories more separable and the text representations from the same category more compact, we introduce a contrastive learning loss function. Experimental results on public-domain benchmark datasets demonstrate the effectiveness of Mask-BERT.

Published

2023

42. Gyri vs. Sulci: Disentangling Brain Core-Periphery Functional Networks via Twin-Transformer

Author

Yu, Xiaowei, Zhang, Lu, Dai, Haixing, Zhao, Lin, Lyu, Yanjun, Wu, Zihao, Liu, Tianming, and Zhu, Dajiang

Subjects

Quantitative Biology - Neurons and Cognition

Abstract

The human cerebral cortex is highly convoluted into convex gyri and concave sulci. It has been demonstrated that gyri and sulci are significantly different in their anatomy, connectivity, and function, besides exhibiting opposite shape patterns, long-distance axonal fibers connected to gyri are much denser than those connected to sulci, and neural signals on gyri are more complex in low-frequency while sulci are more complex in high-frequency. Although accumulating evidence shows significant differences between gyri and sulci, their primary roles in brain function have not been elucidated yet. To solve this fundamental problem, we design a novel Twin-Transformer framework to unveil the unique functional roles of gyri and sulci as well as their relationship in the whole brain function. Our Twin-Transformer framework adopts two structure-identical (twin) Transformers to disentangle spatial-temporal patterns of gyri and sulci, one focuses on the information of gyri and the other is on sulci. The Gyro-Sulcal interactions, along with the tremendous but widely existing variability across subjects, are characterized in the loss design. We validated our Twin-Transformer on the HCP task-fMRI dataset, for the first time, to elucidate the different roles of gyri and sulci in brain function. Our results suggest that gyri and sulci could work together in a core-periphery network manner, that is, gyri could serve as core networks for information gathering and distributing, while sulci could serve as periphery networks for specific local information processing. These findings have shed new light on our fundamental understanding of the brain's basic structural and functional mechanisms., Comment: 13 pages, 4 figures

Published

2023

43. Gyri vs. Sulci: Core-Periphery Organization in Functional Brain Networks

Author

Yu, Xiaowei, Zhang, Lu, Cao, Chao, Chen, Tong, Lyu, Yanjun, Zhang, Jing, Liu, Tianming, Zhu, Dajiang, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Linguraru, Marius George, editor, Dou, Qi, editor, Feragen, Aasa, editor, Giannarou, Stamatia, editor, Glocker, Ben, editor, Lekadir, Karim, editor, and Schnabel, Julia A., editor

Published

2024

44. Brain Cortical Functional Gradients Predict Cortical Folding Patterns via Attention Mesh Convolution

Author

Yang, Li, He, Zhibin, Zhong, Tianyang, Li, Changhe, Zhu, Dajiang, Han, Junwei, Liu, Tianming, Zhang, Tuo, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Linguraru, Marius George, editor, Dou, Qi, editor, Feragen, Aasa, editor, Giannarou, Stamatia, editor, Glocker, Ben, editor, Lekadir, Karim, editor, and Schnabel, Julia A., editor

Published

2024

45. CP-CLIP: Core-Periphery Feature Alignment CLIP for Zero-Shot Medical Image Analysis

Author

Yu, Xiaowei, Wu, Zihao, Zhang, Lu, Zhang, Jing, Lyu, Yanjun, Zhu, Dajiang, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Linguraru, Marius George, editor, Dou, Qi, editor, Feragen, Aasa, editor, Giannarou, Stamatia, editor, Glocker, Ben, editor, Lekadir, Karim, editor, and Schnabel, Julia A., editor

Published

2024

46. Towards Unified Modality Understanding for Alzheimer’s Disease Diagnosis Using Incomplete Multi-modality Data

Author

Han, Kangfu, Zhao, Fenqiang, Zhu, Dajiang, Liu, Tianming, Yang, Feng, Li, Gang, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Cao, Xiaohuan, editor, Xu, Xuanang, editor, Rekik, Islem, editor, Cui, Zhiming, editor, and Ouyang, Xi, editor

Published

2024

47. Tailoring Large Language Models to Radiology: A Preliminary Approach to LLM Adaptation for a Highly Specialized Domain

Author

Liu, Zhengliang, Zhong, Aoxiao, Li, Yiwei, Yang, Longtao, Ju, Chao, Wu, Zihao, Ma, Chong, Shu, Peng, Chen, Cheng, Kim, Sekeun, Dai, Haixing, Zhao, Lin, Zhu, Dajiang, Liu, Jun, Liu, Wei, Shen, Dinggang, Li, Quanzheng, Liu, Tianming, Li, Xiang, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Cao, Xiaohuan, editor, Xu, Xuanang, editor, Rekik, Islem, editor, Cui, Zhiming, editor, and Ouyang, Xi, editor

Published

2024

48. BI AVAN: Brain inspired Adversarial Visual Attention Network

Author

Huang, Heng, Zhao, Lin, Hu, Xintao, Dai, Haixing, Zhang, Lu, Zhu, Dajiang, and Liu, Tianming

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Visual attention is a fundamental mechanism in the human brain, and it inspires the design of attention mechanisms in deep neural networks. However, most of the visual attention studies adopted eye-tracking data rather than the direct measurement of brain activity to characterize human visual attention. In addition, the adversarial relationship between the attention-related objects and attention-neglected background in the human visual system was not fully exploited. To bridge these gaps, we propose a novel brain-inspired adversarial visual attention network (BI-AVAN) to characterize human visual attention directly from functional brain activity. Our BI-AVAN model imitates the biased competition process between attention-related/neglected objects to identify and locate the visual objects in a movie frame the human brain focuses on in an unsupervised manner. We use independent eye-tracking data as ground truth for validation and experimental results show that our model achieves robust and promising results when inferring meaningful human visual attention and mapping the relationship between brain activities and visual stimuli. Our BI-AVAN model contributes to the emerging field of leveraging the brain's functional architecture to inspire and guide the model design in artificial intelligence (AI), e.g., deep neural networks.

Published

2022

49. Coupling Visual Semantics of Artificial Neural Networks and Human Brain Function via Synchronized Activations

Author

Zhao, Lin, Dai, Haixing, Wu, Zihao, Xiao, Zhenxiang, Zhang, Lu, Liu, David Weizhong, Hu, Xintao, Jiang, Xi, Li, Sheng, Zhu, Dajiang, and Liu, Tianming

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Artificial neural networks (ANNs), originally inspired by biological neural networks (BNNs), have achieved remarkable successes in many tasks such as visual representation learning. However, whether there exists semantic correlations/connections between the visual representations in ANNs and those in BNNs remains largely unexplored due to both the lack of an effective tool to link and couple two different domains, and the lack of a general and effective framework of representing the visual semantics in BNNs such as human functional brain networks (FBNs). To answer this question, we propose a novel computational framework, Synchronized Activations (Sync-ACT), to couple the visual representation spaces and semantics between ANNs and BNNs in human brain based on naturalistic functional magnetic resonance imaging (nfMRI) data. With this approach, we are able to semantically annotate the neurons in ANNs with biologically meaningful description derived from human brain imaging for the first time. We evaluated the Sync-ACT framework on two publicly available movie-watching nfMRI datasets. The experiments demonstrate a) the significant correlation and similarity of the semantics between the visual representations in FBNs and those in a variety of convolutional neural networks (CNNs) models; b) the close relationship between CNN's visual representation similarity to BNNs and its performance in image classification tasks. Overall, our study introduces a general and effective paradigm to couple the ANNs and BNNs and provides novel insights for future studies such as brain-inspired artificial intelligence.

Published

2022

50. Rectify ViT Shortcut Learning by Visual Saliency

Author

Ma, Chong, Zhao, Lin, Chen, Yuzhong, Liu, David Weizhong, Jiang, Xi, Zhang, Tuo, Hu, Xintao, Shen, Dinggang, Zhu, Dajiang, and Liu, Tianming

Subjects

Computer Science - Computer Vision and Pattern Recognition, 68T07, 68T10, J.6, I.5.2, I.4.9

Abstract

Shortcut learning is common but harmful to deep learning models, leading to degenerated feature representations and consequently jeopardizing the model's generalizability and interpretability. However, shortcut learning in the widely used Vision Transformer framework is largely unknown. Meanwhile, introducing domain-specific knowledge is a major approach to rectifying the shortcuts, which are predominated by background related factors. For example, in the medical imaging field, eye-gaze data from radiologists is an effective human visual prior knowledge that has the great potential to guide the deep learning models to focus on meaningful foreground regions of interest. However, obtaining eye-gaze data is time-consuming, labor-intensive and sometimes even not practical. In this work, we propose a novel and effective saliency-guided vision transformer (SGT) model to rectify shortcut learning in ViT with the absence of eye-gaze data. Specifically, a computational visual saliency model is adopted to predict saliency maps for input image samples. Then, the saliency maps are used to distil the most informative image patches. In the proposed SGT, the self-attention among image patches focus only on the distilled informative ones. Considering this distill operation may lead to global information lost, we further introduce, in the last encoder layer, a residual connection that captures the self-attention across all the image patches. The experiment results on four independent public datasets show that our SGT framework can effectively learn and leverage human prior knowledge without eye gaze data and achieves much better performance than baselines. Meanwhile, it successfully rectifies the harmful shortcut learning and significantly improves the interpretability of the ViT model, demonstrating the promise of transferring human prior knowledge derived visual saliency in rectifying shortcut learning, Comment: NeurIPS2022 Under Review

Published

2022